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无底物和底物结合的肌酸激酶环 320s 的 NMR 动力学性质:独立亚基的证据。

Dynamical properties of the loop 320s of substrate-free and substrate-bound muscle creatine kinase by NMR: evidence for independent subunits.

机构信息

Institut des Sciences Analytiques, Université de Lyon, Université Claude Bernard Lyon 1, Villeurbanne, France.

出版信息

FEBS J. 2012 Aug;279(16):2863-75. doi: 10.1111/j.1742-4658.2012.08667.x. Epub 2012 Jul 9.

DOI:10.1111/j.1742-4658.2012.08667.x
PMID:22715856
Abstract

Muscle creatine kinase (MCK; EC2.7.3.2) is a 86 kDa homodimer that belongs to the family of guanidino kinases. MCK has been intensively studied for several decades, but it is still not known why it is a dimer because this quaternary structure does not translate into obvious structural or functional advantages over the homologous monomeric arginine kinase. In particular, it remains to be demonstrated whether MCK subunits are independent. Here, we describe NMR chemical-shift perturbation and relaxation experiments designed to study the active site 320s flexible loop of this enzyme. The analysis was performed with the enzyme in its ligand-free and MgADP-complexed forms, as well as with the transition-state analogue abortive complex (MCK-Mg-ADP-creatine-nitrate ion). Our data indicate that each subunit can bind substrates independently.

摘要

肌酸激酶(MCK; EC2.7.3.2)是一种 86 kDa 的同源二聚体,属于胍基激酶家族。几十年来,人们对 MCK 进行了深入研究,但仍不清楚为什么它是二聚体,因为这种四级结构并没有转化为明显的结构或功能优势,超过同源的单体精氨酸激酶。特别是,MCK 亚基是否独立仍然需要证明。在这里,我们描述了设计用于研究该酶活性位点 320s 柔性环的 NMR 化学位移扰动和弛豫实验。该分析是在酶的无配体和 MgADP 络合物形式以及过渡态类似物中止复合物(MCK-Mg-ADP-肌酸-硝酸盐离子)下进行的。我们的数据表明,每个亚基都可以独立结合底物。

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Dynamical properties of the loop 320s of substrate-free and substrate-bound muscle creatine kinase by NMR: evidence for independent subunits.无底物和底物结合的肌酸激酶环 320s 的 NMR 动力学性质:独立亚基的证据。
FEBS J. 2012 Aug;279(16):2863-75. doi: 10.1111/j.1742-4658.2012.08667.x. Epub 2012 Jul 9.
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Despite its high similarity with monomeric arginine kinase, muscle creatine kinase is only enzymatically active as a dimer.尽管肌肉肌酸激酶与单体精氨酸激酶高度相似,但它仅作为二聚体具有酶活性。
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Magnetic resonance study of the three-dimensional structure of creatine kinase-substrate complexes. Implications for substrate specificity and catalytic mechanism.肌酸激酶-底物复合物三维结构的磁共振研究。对底物特异性和催化机制的启示。
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Structural asymmetry and intersubunit communication in muscle creatine kinase.肌肉肌酸激酶中的结构不对称性与亚基间通讯
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Impact of intra-subunit domain-domain interactions on creatine kinase activity and stability.亚基内结构域-结构域相互作用对肌酸激酶活性和稳定性的影响。
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Changes in MM-CK conformational mobility upon formation of the ADP-Mg(2+)-NO(3)(-)-creatine transition state analogue complex as detected by hydrogen/deuterium exchange.通过氢/氘交换检测到的在形成ADP-Mg(2+)-NO(3)(-)-肌酸过渡态类似物复合物时MM-CK构象流动性的变化。
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Structural studies of human brain-type creatine kinase complexed with the ADP-Mg2+-NO3- -creatine transition-state analogue complex.人脑中肌酸激酶与ADP-Mg2+-NO3- -肌酸过渡态类似物复合物结合的结构研究。
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Loop movement and catalysis in creatine kinase.肌酸激酶中的循环运动与催化作用
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Changing the substrate specificity of creatine kinase from creatine to glycocyamine: evidence for a highly evolved active site.将肌酸激酶的底物特异性从肌酸改变为胍基乙胺:活性位点高度进化的证据。
Biochim Biophys Acta. 2007 Dec;1774(12):1519-27. doi: 10.1016/j.bbapap.2007.10.001. Epub 2007 Oct 12.

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